scholarly article | Q13442814 |
P356 | DOI | 10.1098/RSTA.2013.0296 |
P8608 | Fatcat ID | release_n4hp4v45xff7lbx4oabu7ewzvi |
P932 | PMC publication ID | 4032513 |
P698 | PubMed publication ID | 24891395 |
P5875 | ResearchGate publication ID | 262812963 |
P2093 | author name string | A J S Meijers | |
P2860 | cites work | Assessment of surface winds over the Atlantic, Indian, and Pacific Ocean sectors of the Southern Ocean in CMIP5 models: historical bias, forcing response, and state dependence | Q58237616 |
The influence of recent Antarctic ice sheet retreat on simulated sea ice area trends | Q58240921 | ||
The response of the Antarctic Circumpolar Current to recent climate change | Q58263883 | ||
How does internal variability influence the ability of CMIP5 models to reproduce the recent trend in Southern Ocean sea ice extent? | Q58311748 | ||
Contributions of External Forcings to Southern Annular Mode Trends | Q58314384 | ||
Trends in Austral jet position in ensembles of high- and low-top CMIP5 models | Q58391261 | ||
Frontal movements and property fluxes: Contributions to heat and freshwater trends in the Southern Ocean | Q58391777 | ||
Projected Changes to the Southern Hemisphere Ocean and Sea Ice in the IPCC AR4 Climate Models | Q58394054 | ||
The oceanic sink for anthropogenic CO2 | Q28272380 | ||
Impacts of Climate Change on the Subduction of Mode and Intermediate Water Masses in the Southern Ocean | Q29030462 | ||
Saturation of the southern ocean CO2 sink due to recent climate change | Q31113013 | ||
Short-circuiting of the overturning circulation in the Antarctic Circumpolar Current | Q43529888 | ||
The RCP greenhouse gas concentrations and their extensions from 1765 to 2300 | Q56049729 | ||
A numerical model of the Weddell Sea: Large-scale circulation and water mass distribution | Q56209585 | ||
Wind-driven trends in Antarctic sea-ice drift | Q56656003 | ||
THE WCRP CMIP3 Multimodel Dataset: A New Era in Climate Change Research | Q56679747 | ||
Climate model genealogy: Generation CMIP5 and how we got there | Q57175955 | ||
An Overview of CMIP5 and the Experiment Design | Q57229036 | ||
Southern Ocean bottom water characteristics in CMIP5 models | Q58033087 | ||
Long-term ozone changes and associated climate impacts in CMIP5 simulations | Q58057859 | ||
Intercomparison of the Southern Ocean Circulations in IPCC Coupled Model Control Simulations | Q58068838 | ||
The dynamical balance, transport and circulation of the Antarctic Circumpolar Current | Q58069117 | ||
Evaluation of CMIP3 and CMIP5 Wind Stress Climatology Using Satellite Measurements and Atmospheric Reanalysis Products | Q58072320 | ||
Simulation and Projection of the Southern Hemisphere Annular Mode in CMIP5 Models | Q58219221 | ||
Assessment of Southern Ocean water mass circulation and characteristics in CMIP5 models: Historical bias and forcing response | Q58237614 | ||
An Initial Assessment of Antarctic Sea Ice Extent in the CMIP5 Models | Q58237615 | ||
P433 | issue | 2019 | |
P407 | language of work or name | English | Q1860 |
P921 | main subject | Southern Ocean | Q7354 |
Coupled model intercomparison project | Q5178021 | ||
P304 | page(s) | 20130296 | |
P577 | publication date | 2014-07-01 | |
P1433 | published in | Philosophical Transactions of the Royal Society A | Q2153230 |
P1476 | title | The Southern Ocean in the Coupled Model Intercomparison Project phase 5. | |
P478 | volume | 372 |
Q58402851 | A Link Between CMIP5 Phytoplankton Phenology and Sea Ice in the Atlantic Southern Ocean |
Q58829360 | A Synergistic Approach for Evaluating Climate Model Output for Ecological Applications |
Q58090062 | Abrupt onset and prolongation of aragonite undersaturation events in the Southern Ocean |
Q58265185 | Atmosphere-ocean-ice interactions in the Amundsen Sea Embayment, West Antarctica |
Q56673023 | Climate-driven range shifts of the king penguin in a fragmented ecosystem |
Q58098789 | Critical Southern Ocean climate model biases traced to atmospheric model cloud errors |
Q57722052 | Flushing of the deep Pacific Ocean and the deglacial rise of atmospheric CO2 concentrations |
Q58394075 | Future changes to the Indonesian Throughflow and Pacific circulation: The differing role of wind and deep circulation changes |
Q36268424 | Glacial reduction and millennial-scale variations in Drake Passage throughflow |
Q57882677 | Impact of Weddell Sea shelf progradation on Antarctic bottom water formation during the Miocene |
Q58066481 | Long-term response of oceanic carbon uptake to global warming via physical and biological pumps |
Q31004412 | Microbial ecology of Antarctic aquatic systems |
Q54996851 | On the Southern Ocean CO2uptake and the role of the biological carbon pump in the 21st century |
Q57889379 | Oxygen minimum zones in the tropical Pacific across CMIP5 models: mean state differences and climate change trends |
Q57901094 | Southern Ocean Phytoplankton in a Changing Climate |
Q57921316 | Southern Ocean albedo, inter-hemispheric energy transports and the double ITCZ: global impacts of biases in a coupled model |
Q58073781 | Southern Ocean deep convection in global climate models: A driver for variability of subpolar gyres and Drake Passage transport on decadal timescales |
Q55191012 | Stepping stones to isolation: Impacts of a changing climate on the connectivity of fragmented fish populations. |
Q58080818 | Sustained growth of the Southern Ocean carbon storage in a warming climate |
Q64901608 | The Low-Resolution Version of HadGEM3 GC3.1: Development and Evaluation for Global Climate. |
Q42585338 | The Southern Ocean, carbon and climate. |
Q57767199 | The impact of Southern Ocean residual upwelling on atmospheric CO2 on centennial and millennial timescales |
Q90836193 | Tracking of marine predators to protect Southern Ocean ecosystems |
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